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EP1919979B2 - Conjugués polymères de k-252a et leurs derivés - Google Patents

Conjugués polymères de k-252a et leurs derivés Download PDF

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EP1919979B2
EP1919979B2 EP06777076.8A EP06777076A EP1919979B2 EP 1919979 B2 EP1919979 B2 EP 1919979B2 EP 06777076 A EP06777076 A EP 06777076A EP 1919979 B2 EP1919979 B2 EP 1919979B2
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substituted
polymer
unsubstituted
group
hydrogen
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EP1919979B1 (fr
EP1919979A1 (fr
Inventor
Silvio Traversa
Raffaella Bagnod
Domenico Barone
Luisa Bertarione Rava Rossa
Silvano Fumero
Valentina Mainero
Alessandra Marconi
Cecilia Oderda
Carlo Pincelli
Chiara Lorenzetto
Luca Beccaria
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Creabilis Therapeutics SpA
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Creabilis Therapeutics SpA
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Priority to PL06777076T priority Critical patent/PL1919979T5/pl
Priority to SI200631734A priority patent/SI1919979T2/sl
Priority to RS20140104A priority patent/RS53195B2/sr
Priority to SI200631734T priority patent/SI1919979T1/sl
Application filed by Creabilis Therapeutics SpA filed Critical Creabilis Therapeutics SpA
Publication of EP1919979A1 publication Critical patent/EP1919979A1/fr
Publication of EP1919979B1 publication Critical patent/EP1919979B1/fr
Priority to HRP20140218TT priority patent/HRP20140218T4/hr
Priority to CY20141100227T priority patent/CY1114995T1/el
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Definitions

  • the present invention relates to novel polymer conjugates of K-252a and derivatives thereof and to their use for the preparation of a pharmaceutical composition useful for the prevention, alleviation and treatment of kinase-associated pathologies.
  • the present invention relates to compounds of formula (I) for use in the prevention, alleviation and treatment of HMGB1-associated pathologies.
  • the invention relates to the use of the novel polymer conjugates of K-252a and derivatives thereof in the preparation of a pharmaceutical composition useful for the prevention, alleviation and treatment of neurological disorders, neuropathies and neurodegenerative disorders of the central and peripheral nervous system.
  • the invention relates to the use of the polymer conjugates in the preparation of a pharmaceutical composition useful for the prevention, alleviation and treatment of dermal pathologies, in particular dermal pathologies associated with an excessive keratinocyte proliferation, in particular psoriasis.
  • the invention relates to the polymer conjugates for use in the prevention, alleviation and treatment of NGF-related pain. More specifically, the present invention relates to a polymer conjugate of K-252a and derivatives thereof, wherein the polymer is polyethylene glycol or methoxy-polyethylene glycol.
  • K-252a is a lipophilic alkaloid for the first time isolated from Nocardiopsis sp soil fungi ( WO 97/38120 ), having a indolocarbazole skeleton represented by the following formula:
  • K-252a strongly inhibits protein kinase C (PKC), which plays a central role in regulating cell functions, and has various activities such as the action of inhibiting smooth muscle contraction ( Jpn. 3. Pharmacol. 43(suppl.): 284, 1987 ), the action of inhibiting serotonin secretion ( Yamada et al., Biochem. Biophys. Res. Commun. 144:35-40, 1987 ), the action of inhibiting elongation of neuraxone ( Koizumi et al., J. Neurosci. Res.
  • PKC protein kinase C
  • K-252a has the activity of inhibiting IL-2 production.
  • the complete synthesis of K-252a has been achieved ( Wood et al., J. Am. Chem. Soc. 117:10413-10414, 1995 ) as well.
  • Nerve growth factor is the best characterized neurotrophin and is required for normal development and function of certain sensory and cholinergic neurons ( Levi-Montalcini, Annu. Rev. Neurosci. 5:341-362, 1982 ).
  • the high-affinity neurotrophic receptors, trks comprise a family of proteins consisting of trk A, trk B, and trk C ( Knusel et al., J. Neurochem. 59:715-722, 1992 ).
  • Members of this receptor family are membrane-associated proteins that exhibit tyrosine kinase activity. Interaction of a neurotrophin ligand with trks induces phosphorylation of specific tyrosine residues on the receptor.
  • K-252a is an inhibitor of several enzymes, including trks. Consistent with this effect, K-252a blocks NGF-mediated cell survival in some in vitro cell assays ( Koizumi et al., J. Neurosci. 8:715-721, 1988 ; Doherty et al., Neurosci. Lett. 96:1-6, 1989 ; Matsuda et al., Neurosci. Lett. 87:11-17, 1988 ), since it influences the phosphorylation state of trks.
  • Keratinocytes a key cellular component both for homeostasis and pathophysiologic processes of the skin, secrete a number of cytokines and are stimulated by several growth factors.
  • NGF is synthesized in the skin and significantly stimulates the proliferation of normal human keratinocytes in culture in a dose-dependent manner. This effect can be prevented by the addition of K-252a, which is a high-affinity NGF receptor (trk) specific inhibitor, thus suggesting that NGF effect on human keratinocytes is mediated by the high-affinity NGF receptor. So NGF could act as a cytokine in human skin and take part in disorders of keratinocyte proliferation ( Pincelli et al., J. Invest. Dermatol.
  • NGF neuropeptide kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinase kinasis.
  • NGF can influence all the salient pathologic events noticed in psoriasis such as proliferation of keratinocytes, angiogenesis, T cell activation, expression of adhesion molecule, proliferation of cutaneous nerves, and upregulation of neuropeptides.
  • NGF has a crucial role in the generation of pain and hyperalgesia in several acute and chronic pain states.
  • the expression of NGF is high in injured and inflamed tissues, and activation of the NGF receptor tyrosine kinase TrkA on nociceptive neurons triggers and potentiates pain signaling by multiple mechanisms.
  • NGF antagonism is expected to be a highly effective therapeutic approach in many pain states, and to be free of the adverse effects of traditional analgesic drugs [ Hefti FF et al. Trends Pharmacol. Sci. (2006) 27:85-91 ].
  • Evidence indicates that TrkA receptors are required for the nociceptive actions of NGF.
  • K-252a inhibits Trk signaling with high potency and attenuates hypersensitivity in an animal model of pancreatic pain [ Winston JH et al. J. Pain (2003) 4:329-337 ].
  • K-252a lacks selectivity for TrkA since it is a potent inhibitor for several kinases. This means that K-252a is likely to have many adverse effects that are unrelated to inhibition of TrkA.
  • the patent application WO 2005/014003 describes the use of tyrosine kinase inhibitors of microbial origin belonging to the K-252 family to prepare topical medicaments able to inhibit the excessive keratinocyte proliferation characteristic of disorders such as psoriasis and skin tumors.
  • the European patent application EP 0 303 697 A1 discloses novel derivatives of K252, among them K252a.
  • the disclosed compounds are physiologically active substances having a protein kinase C-inhibiting activity and an oncostatic activity.
  • HMGB1 is a pro-inflammatory chemokine released by necrotic or dying cells, leading to an inflammatory cytokine cascade in several human pathologies.
  • the above mentioned US Patent Applications describe the novel use of K-252a and derivatives thereof as therapeutic agent for the prevention and treatment of restenosis.
  • K-252a has in fact the ability of blocking/inhibiting HMGB1-induced arterial smooth muscle cell migration and proliferation, events that are both at the basis of restenosis formation.
  • K-252a and derivatives thereof are loaded as surface-coating by binding, embedding or adsorbing on a medical device, in particular on a stent, in order to have the active agent released in situ.
  • K-252a In addition to K-252a itself, various derivatives of K-252a have been synthesized and tested for biological activity. As an example, CEP1347, a K252a derivative, retains neuroprotective properties but does not inhibit TrkA. CEP1347 has been shown to directly inhibit MAPKKKs, including MLK3 ( Roux et al., J. Biol. Chem. 277:49473-49480, 2002 ). Another K-252a derivative, KT5926, has been investigated against vesicular stomatitis virus (VSV) replication in BHK-21 cells ( Kim et al., Biol. Pharm. Bull. 21:498-505, 1998 ). It is known that K-252a analogs with conservative substitutions at C3' retain potency against a range of kinases ( Schneider et al., Org. Lett. 7:1695-1698, 2005 ).
  • VSV vesicular stomatitis virus
  • the efficacy of systemically administered drugs may be hampered in vivo by factors such as poor solubility at physiologic pH and rapid elimination by glomerular filtration, cellular clearance and metabolism. In many cases, such disadvantageous effects prevent an effective therapeutic use of such agents.
  • a successful strategy for improving both efficacy and duration of the agents' effects and for reducing potential toxicologic effects is the covalent binding of a biologically active agent to diverse polymers.
  • One of the polymers that is most often used for improving the pharmacologic and toxicologic properties of an active agent is the polyalkylenoxide polyethylene gylcol, PEG in short.
  • PEG Polyethylene glycol
  • PEG derivatives have been widely used in covalent attachment (i.e., "PEGylation") to proteins in order to reduce immunogenicity, proteolysis and kidney clearance and to enhance solubility ( Zalipsky, Adv. Drug Del. Rev. 16:157-182, 1995 ).
  • PEG has been attached to low molecular weight, relatively hydrophobic drugs in order to reduce toxicity, alter biodistribution, and enhance solubility.
  • Pegylated pharmaceuticals may be more effective than their unmodified parent drugs by virtue of the properties of PEG that are transferred to the conjugates ( Molineux, Pharmacotherapy 23: 3S-8S, 2003 ).
  • the aim of the present invention was to exploit the peculiar characteristics of some polymers, in particular of polyethylene glycol (PEG) in order to develop therapeutically useful administration forms of members of the indolocarbazole family. It was the aim of the inventors of the invention to obtain through the PEG modification an improved pharmacokinetic and toxicologic performance of the polymer conjugated indolocarbazole compound. Moreover, a change in the activity and/or toxicity profile of the new conjugated compounds was the focus of the invention, too.
  • PEG polyethylene glycol
  • One of the specific problems underlying the present invention was to exploit the peculiar characteristics of some polymers, in particular of PEG, in order to develop administration forms of K-252a which permit an improved pharmacokinetic and toxicologic performance, achieving the best bioavailability of K-252a or of its derivative in the various possible application routes.
  • the problem was to exploit the characteristics of the polymer in order to achieve, in case of a topical administration, a decreased absorption of K-252a or its derivatives and therefore a reduction and even elimination of possible systemic toxicity and/or side effects.
  • the present invention is therefore directed to novel polymer conjugates of members of the indolocarbazole compounds and in particular of K-252a or of derivatives thereof, their preparation and their use, wherein the polymer conjugate has an increased water solubility, an improved pharmaceutical manageability, an improved pharmacokinetic and bioavailability and/or a decreased toxicity and/or immunogenicity in comparison to the non-conjugated indolocarbazole compounds or to the K-252a compound or derivatives thereof.
  • the present invention is directed to a polymer conjugate of K-252a or of derivatives thereof, their preparation and their use, wherein, after topical administration, the systemic absorption is limited and therefore the systemic toxicity and/or side-effects are reduced or even eliminated.
  • a first aspect of the present invention is therefore a polymer conjugate of an indolocarbazole compound of the general formula (I): and preferably of general formula (II) wherein R a and R b are independently a hydrogen or an organic residue selected from the group consisting of substituted or unsubstituted lower alkyl, substituted or unsubstituted lower alkenyl, substituted or unsubstituted lower alkynyl, hydroxy, lower alkoxy, carboxy or alcoxycarbonyl; or R a and R b together form a 5-7 member, preferably 5 member cyclic structure fused directly to the indolo[2,3-a]carbazole nucleus structure, containing 0, 1 or 2 heteroatoms, preferably nitrogen atoms, and optionally containing a carbonyl group and the cyclic structure being unsubstituted or substituted by at least one substituent group selected from a carbonyl group or W 1 or W 2 and wherein if a heteroatom
  • the compounds (I) and (II) have at least one functional group to which a polymeric moiety is conjugated, preferably located on the radical R c and/or R d .
  • the conjugate may comprise one or several polymeric moieties, e.g. one, two, three or more polymeric moieties.
  • the conjugate compounds of the present invention comprise one polymeric moiety.
  • the 3-7 member cyclic moiety preferably the cyclic carbohydrate moiety is bond to the indolocarbazole compound by attachment to one indole nitrogen or by attachment to both indole nitrogens of the indolocarbazole structure.
  • the attachment can include a single indole or two indoles and is preferably provided by one or two N-glycosidic linkages.
  • the 3-7 member cyclic moiety preferably the cyclic carbohydrate moiety, is a substituted furano or a substituted pyrano group.
  • the preferred polymer conjugated compounds are cyclofuranosylated indolocarbazole compounds or cyclopyranosylated indolocarbazole compounds.
  • Preferred cyclofuranosylated indolocarbazole compounds which according to the invention are conjugated to a polymer moiety may be selected from K-252a, K-252b, ICP-1.
  • Preferred cyclopyranosylated indolocarbazole compounds may be selected from Staurosporine, K-252d, TAN-1030a, RK-286c, MLR-52, Rebeccamycin, UNC-01, UNC-02 and RK-1409B.
  • the at least one polymeric moiety is conjugated to the compound of formulae (I) and/or (II) by a covalent chemical linkage in order to provide a stable conjugate.
  • the polymer moiety is bond to the compounds of general formulae (I) and/or (II) by attachment on a functional group selected from hydroxy, amino, carboxy, alkoxycarbonyl or aminocarbonyl.
  • the polymer moiety is attached to the compound of general formulae (I) and/or (II) on one of the residues R c and R d , particularly preferably on the cyclic carbohydrate moiety identified by the residues R c and R d .
  • the polymer moiety of the compound of the invention as well as the preferred chemical linkage by which the polymer may be attached to the indolocarbazole compound of formulae (I) and/or (II) are described below.
  • a very preferred aspect of the present invention is a polymer conjugate, which is represented by the following formula (III): wherein R 1 and R 2 are the same or a different residue and are each independently selected from the group consisting of:
  • R 3 is hydrogen, halogen, acyl, carbamoyl, substituted or unsubstituted lower alkyl, substituted or unsubstituted alkenyl, substituted or unsubstituted lower alkynyl or amino;
  • X represents -L 1 -X' and Y represents -L 2 -Y', wherein at least one of X' and Y' is a polymer, either linear or branched, which is bound by L 1 and/or L 2 to the tetrahydrofuran moiety of the compound of formula (III);
  • L 1 and/or L 2 are a covalent chemical bond or a linker group which binds the tetrahydrofuran moiety to the polymer X' and/or Y'; when Y' is a polymer, and X' is not a polymer, L 1 is a covalent chemical bond and X' is selected from the group consisting of
  • lower alkyl when used alone or in combination with other groups, means a straight chained or branched lower alkyl group containing from 1-6 carbon atoms, preferably from 1-5, more preferably from 1-4 and especially preferably 1-3 or 1-2 carbon atoms.
  • These groups include in particular methyl, ethyl, propyl, isopropyl, butyl, isobutyl, sec-butyl, tert-butyl, pentyl, amyl, isoamyl, neopentyl, 1-ethylpropyl, hexyl, and the like.
  • lower alkyl moiety of the "lower alkoxy”, the “lower alkoxycarbonyl”, the “lower akylaminocarbonyl”, “lower hydroxyalkyl” and of the “tri-lower alkylsilyl” groups has the same meaning as "lower alkyl” defined above.
  • the "lower alkenyl” groups are defined as C 2 -C 6 alkenyl groups which may be straight chained or branched and may be in the Z or E form. Such groups include vinyl, propenyl, 1-butenyl, isobutenyl, 2-butenyl, 1-pentenyl, (Z)-2-pentenyl, (E)-2-pentenyl, (Z)-4-methyl-2-pentenyl, (E)-4-methyl-2-pentenyl, pentadienyl, e.g., 1, 3 or 2,4-pentadienyl, and the like. More preferred C 2 -C 6 -alkenyl groups are C 2 -C 5 -, C 2 -C 4 -alkenyl groups and even more preferably C 2 -C 3 -alkenyl groups.
  • lower alkynyl groups refers to C 2 -C 6 -alkynyl groups which may be straight chained or branched and include ethynyl, propynyl, 1-butynyl, 2-butynyl, 1-pentynyl, 2-pentynyl, 3-methyl-1-pentynyl, 3-pentynyl, 1-hexynyl, 2-hexynyl, 3-hexynyl and the like. More preferred C 2 -C 6 -alkynyl groups are C 2 -C 5 -, C 2 -C 4 -alkynyl groups and even more preferably C 2 -C 3 -alkynyl groups.
  • aryl group refers to C 6 -C 14 -aryl groups which contain from 6 up to 14 ring carbon atoms. These groups may be mono-, bi- or tricyclic and are fused rings.
  • the preferred aryl groups include phenyl, biphenyl, naphthyl, anthracenyl, phenanthrenyl and the like.
  • the aryl moiety of the "arylcarbonyl” and the “arylaminocarbonyl” groups has the same meaning as defined above.
  • heteroaryl groups may contain 1 to 3 heteroatoms independently selected from nitrogen, sulfur or oxygen and refers C 3 -C 13 -heteroaryl groups. These groups may be mono-, bi- or tricyclic.
  • the C 3 -C 13 heteroaryl groups of the present invention include heteroaromatics and saturated and partially saturated heterocyclic groups. These heterocyclics may be monocyclic, bicyclic, tricyclic.
  • Preferred 5 or 6-membered heterocyclic groups are thienyl, furyl, pyrrolyl, pyridyl, pyranyl, morpholinyl, pyrazinyl, methylpyrrolyl, and pyridazinyl.
  • the C 3 -C 13 -heteroaryl may be a bicyclic heterocyclic group.
  • Preferred bicyclic heterocyclic groups are benzofuryl, benzothienyl, indolyl, imidazolyl, and pyrimidinyl.
  • the most preferred C 3 -C 13 -heteroaryls are furyl and pyridyl.
  • lower alkoxy includes alkoxy groups containing from 1 to 6 carbon atoms, preferably from 1 to 5, more preferably from 1-4 and especially preferably 1 to 3 or 1 to 2 carbon atoms and may be straight chained or branched. These groups include methoxy, ethoxy, propoxy, butoxy, isopropoxy, tert-butoxy, pentoxy, hexoxy and the like.
  • acyl includes lower alkanoyl containing 1 to 6 carbon atoms, preferably from 1 to 5, from 1 to 4, from 1 to 3 or from 1 to 2 carbon atoms and may be straight chained or branched. These groups include preferably formyl, acetyl, propionyl, butyryl, isobutyryl, tertiary butyryl, pentanoyl and hexanoyl.
  • the acyl moiety of the "acyloxy" group has the same meaning as defined above.
  • halogen includes fluoro, chloro, bromo, iodio, and the like.
  • aralkyl group refers C 7 -C 15 -aralkyl wherein the alkyl group is substituted by an aryl.
  • the alkyl group and aryl may be selected from the C 1 -C 6 alkyl groups and the C 6 -C 14 -aryl groups as defined above, wherein the total number of carbon atoms is between 7 and 15.
  • Preferred C 7 -C 15 -aralkyl groups are benzyl, phenylethyl, phenylpropyl, phenylisopropyl, phenylbutyl, diphenylmethyl, 1,1-diphenylethyl, 1,2-diphenylethyl.
  • the aralkyl moiety of the "aralkyloxy" groups has the same meaning as defined above.
  • the substituted lower alkyl, alkenyl and alkynyl groups have 1 to 3 independently selected substituents, such as lower alkyl, hydroxy, lower alkoxy, carboxyl, lower alkoxycarbonyl, nitro, halogen, amino, mono- or di-lower alkylamino, dioxolane, dioxane, dithiolane, and dithione.
  • the lower alkyl substituent moiety of the substituted lower alkyl, alkenyl and alkynyl groups, and the lower alkyl moiety of the lower alkoxy, the lower alkoxycarbonyl, and the mono- or di-lower alkylamino substituents of the substituted lower alkyl, alkenyl and alkynyl groups have the same meaning as "lower alkyl" defined above.
  • the substituted aryl, the substituted heteroaryl and the substituted aralkyl groups each has 1 to 3 independently selected substituents, such as lower alkyl, hydroxy, lower alkoxy, carboxy, lower alkoxycarbonyl, nitro, amino, mono- or di-lower alkylamino, and halogen.
  • substituents such as lower alkyl, hydroxy, lower alkoxy, carboxy, lower alkoxycarbonyl, nitro, amino, mono- or di-lower alkylamino, and halogen.
  • the lower alkyl moiety of the lower alkyl, the lower alkoxy, the lower alkoxycarbonyl, and the mono- or di-lower alkylamino groups among the substituents has the same meaning as lower alkyl defined above.
  • the heterocyclic group formed by R 5 and R 6 combined with a nitrogen atom includes pyrrolidinyl, piperidinyl, piperidino, morpholinyl, morpholino, thiomorpholino, N-methylpiperazinyl, indolyl, and isoindolyl.
  • the ⁇ -amino acid groups include glycine, alanine, proline, glutamic acid and lysine, which may be in the L-form, the D-form or in the form of a racemate.
  • the residue R 14 is preferably selected from phenyl, pyridyl, imidazolyl, thiazolyl, tetrazolyl, -COOR 15 , -OR 15 (wherein R 15 is preferably selected from hydrogen, methyl, ethyl, phenyl or acyl), -SR 7 (wherein R 7 is preferably selected from substituted or unsubstituted lower alkyl, 2-thiazoline and pyridyl) and -NR 5 R 6 (wherein R 5 and R 6 are preferably selected from hydrogen, methyl, ethyl, phenyl, carbamoyl and lower alkylaminocarbonyl).
  • the residue R 16 is preferably selected form hydrogen, methyl, ethyl, phenyl, imidazole, thiazole, tetrazole, -COOR 15 , -OR 15 and -NR 5 R 6 (wherein the residues R 15 , R 5 and R 6 have the preferred meanings as described above).
  • the residue R 7 is preferably selected from the group consisting of substituted or unsubstituted lower alkyl, substituted or unsubstituted phenyl, pyridyl, pyrimidinyl, thiazole and tetrazole.
  • k is preferably 2, 3 or 4
  • j is preferably 1 or 2 and m and n are independently preferably 0 or 1.
  • R 3 is hydrogen or acetyl, most preferably hydrogen.
  • each W 1 and W 2 is hydrogen.
  • X' is preferably selected from carboxy, hydroxymethyl or a lower alkoxycarbonyl, with methoxycarbonyl and carboxyl being particularly preferred.
  • Y' is preferably selected from hydroxy or acetyloxy, most preferred hydroxy.
  • a very preferred embodiment of the present invention refers to the compound K252-a conjugated in the position X and/or Y to a polymer. Therefore, in a very preferred embodiment of the present invention, the polymer conjugate of formula (III) is represented by a compound wherein R 1 , R 2 , R 3 , W 1 , and W 2 are hydrogen and at least one of X' and Y' is a polymer, whereby if Y' is a polymer, and X' is not a polymer, X' is methoxycarbonyl, and if X' is a polymer, and Y' is not a polymer, Y' is hydroxy.
  • a very preferred embodiment of the present invention refers to the compound K252-b conjugated in the position X and/or Y to a polymer. Therefore, in a very preferred embodiment of the present invention, the polymer conjugate of formula (III) is represented by a compound wherein R 1 , R 2 , R 3 , W 1 , and W 2 are hydrogen and at least one of X' and Y' is a polymer, whereby if Y' is a polymer, and X' is not a polymer, X' is carboxyl, and if X' is a polymer, and Y' is not a polymer, Y' is hydroxy.
  • the compounds of the present invention may be prepared as pharmaceutically acceptable salts including salts of inorganic acids such as hydrochloric, hydroiodic, hydrobromic, phosphoric, metaphosphoric, nitric acid and sulfuric acids as well as salts of organic acids, such as tartaric, acetic, citric, malic, benzoic, glycolic, gluconic, succinic, aryl sulfonic, (e.g., p-toluene sulfonic acids, benzenesulfonic), phosphoric, malonic, and the like.
  • Suitable acids for formation of pharmaceutically acceptable salts are known to a person skilled in the art.
  • pharmaceutically acceptable salts of compounds of the present invention may be formed with a pharmaceutically acceptable cation.
  • Pharmaceutically acceptable cations are known to a person skilled in the art and include alkali cations (Li+, Na+, K+), earth alkali cations (Mg2+, Ca2+, Ba2+), ammonium and organic cations, such as quaternary ammonium cations.
  • the polymer moiety according to the present invention which, for example, is represented in the general formula (III) by X' and/or Y', has to be biocompatible, can be of natural or semi-synthetic or synthetic origin and can have a linear or branched structure.
  • the polymer moiety of the compound of the invention is selected from polyalkylene glycols, polyalkylene oxides, polyacrylic acid, polyacrylates, polyacrylamide or N-alkyl derivatives thereof, polymethacrylic acid, polymethacrylates, polyethylacrylic acid, polyethylacrylates, polyvinylpyrrolidone, poly(vinylalcohol), polyglycolic acid, polylactic acid, poly (lactic-co-glycolic) acid, dextran or chitosan.
  • the polymer is polyethylene glycol (PEG) group, wherein the terminal OH group can optionally be modified e.g. with C 1 -C 5 alkyl or C 1 -C 5 acyl groups, preferably with C 1 -, C 2 - or C 3 -alkyl groups or C 1 -, C 2 - or C 3 groups.
  • the modified polyethylene glycol is methoxy-polyethylene-glycol (mPEG).
  • the polymer used according to the present invention has a molecular weight ranking from 100 to 100,000 Da, preferably from 200 to 50,000 Da, and more preferably from 500 to 10,000 Da.
  • the polymer is a short-chain PEG which preferably has a terminal OH and/or methoxy group with a molecular weight ranking from 200 to 1500 Da, preferably from 400 to 1200 Da and even more preferably from 550 to 1100.
  • the short-chain PEG has an average molecular weight of 550 Da or of 1100 Da.
  • the polymer is a long-chain PEG which preferably has a terminal OH and/or methoxy group, with a molecular weight ranking from 4,000 to 6,000 Da, and preferably from 4,500 to 5,500 Da.
  • a long-chain PEG or mPEG with an average molecular weight of 2,000 Da or of 5,000 Da is used.
  • the polymer chain of the polymer conjugate of formulae (I), (II) and/or (III) is conjugated by a covalent chemical bond to the active agent in order to provide a stable conjugate.
  • Fig. 1a and Fig. 1b show e.g. the preferred polymer conjugate of formula (III).
  • the polymer can be bound directly to the compound of formulae (I) or (II) or to the K-252a derivative of formula (III).
  • L 1 and L 2 are a covalent bond.
  • the polymer moiety are bound to the indolocarbazole derivative by using a linker group.
  • the polymer moiety X' and/or Y' are bound by a linker group, whereby in this embodiment, L 1 and L 2 represent the linker group.
  • the term linker group L 1 and/or L 2 means a group which is obtained by the chemical reaction of the residue on the C3 position of the tetrahydrofuran moiety of the formula (III) and the reactive group on the polymer moiety. Therefore, L 1 and L 2 , which couple the polymer moieties X' and Y' to the tetrahydrofuran ring, may represent a linker group as defined above.
  • the linker group can be any residue known to those skilled in the art of polymer conjugation, obtained by the reaction of the functional group suitable for conjugation on the indolocarbazole compounds of formulae (I) or (II), preferably on the cyclic moiety R c and/or R d , or on the substituent on the tetrahydrofuran ring of formula (III) and the polymer or the polymer activated by a reactive group.
  • exemplary linker group e.g.
  • L 1 and/or L 2 groups include without limitation ester, ether, acetal, ketal, vinyl ether, carbamate, urea, amine, amide, enamine, imine, oxime, amidine, iminoester, carbonate, orthoester, phosphonate, phosphinate, sulfonate, sulfinate, sulfide, sulfate, disulfide, sulfinamide, sulfonamide, thioester, aryl, silane, siloxane, heterocycles, thiocarbonate, thiocarbamate, and phosphonamide bonds.
  • the linker groups or in particular L 1 and L 2 are selected from a carbamate, an ether, an ester, a carbon, an amide and/or an amine bond.
  • the linker group may optionally contain one or more spacer groups.
  • a spacer group is defined as a bifunctional group, having on both termini a reactive functional end-group. With the one reactive end-group, the spacer reacts with the polymer moiety, e.g. X' and Y', or with the reactive group on the polymer moiety.
  • the spacer group binds to the functional group suitable for conjugation on the indolocarbazole compounds of formulae (I) or (II), preferably on the cyclic moiety R c and/or R d , or to the tetrahydrofuran ring of formula (III), preferably with the residue on the C3 position of the tetrahydrofuran ring of formula (III).
  • Suitable spacer groups are known to those skilled in the art. Examples of spacer groups include, but are not limited to hetero-, bi-functional small molecules or polymer.
  • the spacer group may be represented by bifunctional C 6 -C 12 alkyl groups or heterobifunctional alkyl groups containing from 1 -3 heteroatoms selected from N, S and O or an intermediary short bifunctional PEG chain.
  • the polymer represented in the general formula (III) by X' or Y', preferably covalently binds directly or by a spacer group to an oxygen atom derived from the hydroxy group on the C3 position of the tetrahydrofuran moiety of the K-252a derivative.
  • Y' represents the polymer moiety and L 2 is preferably a carbamate or an ether bond ( Fig. 1a ).
  • the polymer is covalently conjugated directly or by a spacer group to an carbonyl group derived from the methylester group on the C3 position of the tetrahydrofuran moiety of the K-252a derivative.
  • X' represents the polymer moiety and L 1 is preferably an amide or amine bond ( Fig 1b ).
  • covalent attachment of the polymer moiety to the indolocarbazole compounds of formulae (I), (II), or (III) is obtained by known chemical synthesis.
  • covalent attachment of the polymer to K-252a or its derivatives to obtain the compounds of formula (III) may be accomplished by known chemical synthesis techniques.
  • the polymer conjugation of K-252a or its derivatives can be accomplished by reacting an isocyanate-activated polymer with K-252a or its derivatives under suitable reaction conditions as generally depicted by the following reaction scheme: Polymer-NCO + HO-Drug ⁇ Polymer-NH-CO-O-Drug
  • Fig. 2 shows an example of the present invention, wherein a compound of formula (III) is obtained by the reaction of the polymer moiety Y' which is an isocyanate-activated PEG and the hydroxy group on the C3 position of the tetrahydrofuran moiety of K-252a.
  • the conjugation between polymer and K-252a is hence obtained by the linker group L 2 which is a carbamate linker group.
  • the compounds of formula (I), (II) and/or (III) exhibit an improved pharmacokinetic and toxicologic performance due to their increased solubility, leading to an improved bioavailability.
  • the compounds of formulae (I), (II) and/or (III) show a limited systemic absorption upon topical administration due to their increased molecular size and hydrophilicity, thus reducing the systemic toxicity and/or side-effects (see Example 2).
  • the K-252a polymer conjugates of formulae (I), (II) and/or (III) exhibit a significant increase in selectivity in the inhibitory activity against TrkA tyrosine kinase in comparison with the non-selective kinase inhibitory activity of the indolocarbazole compounds itself and in particular of K-252a and its derivatives (see Example 3).
  • the conjugation of an indolocarbazole compound and in particular of K-252a to a polymer molecule according to the invention leads to the provision of an active agent selective with regard to its therapeutic target with the consequent decrease of undesired side effects.
  • a further aspect of the present invention is the compounds of formulae (I), (II) and/or (III) for use as active agents in a medicament.
  • the compounds of formula (I), (II) and/or (III) are used as active agents in a medicament for systemic administration and treatment.
  • the invention relates to the use of compounds of formula (I), (II), and/or (III) as active agents in a topical medicament.
  • conjugated polymer compounds of the present invention are used as active agents in a medicament useful for the prevention, alleviation and treatment of HMGB1-associated pathologies.
  • An HMGB1-associated pathology is a condition in a patient wherein an increased concentration of the nuclear protein HMGB1 and/or of HMGB1 homologous proteins in the acetylated or non-acetylated form is present in the biological fluids and tissues, compared to the concentration in normal subjects where these HMGB1 nuclear proteins are practically undetectable.
  • the extracellular HMGB1s act as potent chemotactic pro-inflammatory chemokines.
  • the HMGB1-associated pathologies are hence pathologies with a strong inflammatory basis, pathologies which result from the stimulation of cytokine such as TNF-alpha, IL-1, IL-6 etc., or pathologies which result from toxic events such as intoxication, infection, burn, etc.
  • HMGB1 protein and homologous proteins have been found and determined in plasma of patients with sepsis, in plasma and synovial fluid of rheumatoid arthritis patients, in brains of Alzheimer's disease patients, in plasma and tissues of melanoma patients, in plasma of systemic lupus erythematosus patients, in atherosclerotic plaques of atherosclerotic patients, etc.
  • the determination and evidence of HMGB1 protein and/or homologous proteins in biological fluids and tissues may be detected by common diagnostic tools known by the skilled person in the art, including, for example, detection by ELISA assays etc.
  • HMGB1 extracellular HMGB1
  • diseases are characterized by the relevant presence of extracellular HMGB1, which in particular include but are not limited to inflammatory diseases, stenosis, restenosis, atherosclerosis, rheumatoid arthritis, autoimmune diseases, tumors, infective diseases, sepsis, acute inflammatory lung injury, lupus erythematosus, neurodegenerative diseases, diseases of the central and peripheral nervous system and multiple sclerosis.
  • the conjugated polymer compounds of formulae (I), (II) and/or (III) are used for the prevention, alleviation and treatment of cardiovascular diseases, particularly atherosclerosis and/or restenosis occurring during or after angioplasty. More preferably, the medicament is used for blocking, retarding and/or impairing connective tissue regeneration in restenosis during or after angioplasty.
  • the conjugated polymer compounds of formulae (I), (II) and/or (III) are efficient for the use as active agent in a medicament for the prevention, alleviation and treatment of neurological disorders, neuropathies and neurodegenerative disorders of the central and peripheral nervous system.
  • the new polymer conjugate compounds are able to reduce and/or inhibit the plasma cytokine secretion by systemic treatment. Therefore, the polymer conjugate compounds are used as active agents in a medicament for systemic administration useful for the prevention, alleviation and/or treatment of pathologies in which an increase of plasma cytokine secretion is involved. These pathologies are preferably pathologies, in which a secretion of TNF- ⁇ , iFN- ⁇ , MCP-1, MIP-1 and/or RANTES are mainly involved.
  • pathologies which are associated with an increased plasma cytokine secretion include but are not limited to inflammatory diseases, autoimmune diseases, systemic inflammatory response syndrome, reperfusion injury after organ transplantation, cardiovascular affections, obstetric and gynecologic diseases, infectious diseases, allergic and atopic diseases, solid and liquid tumor pathologies, transplant rejection diseases, congenital diseases, dermatological diseases, neurological diseases, cachexia, renal diseases, iatrogenic intoxication conditions, metabolic and idiopathic diseases, and ophthalmological diseases.
  • the compounds of the invention are used as active agents in a medicament for systemic treatment useful for the prevention, alleviation and/or treatment of Behçet's disease, Sjögren's syndrome, vasculitis, uveitis, retinopathies.
  • conjugated polymer compounds of the present invention are used as active agents in a topical medicament useful for the prevention, alleviation and/or treatment of dermal pathologies.
  • the dermal pathologies preferred in the context of the present invention are pathologies characterized by hyperproliferation of the keratinocytes, such as psoriasis, atopic dermatitis, chronic eczema, acne, pitiriasis rubra pilaris, keloids, hypertrophic scars and skin tumors, such as keratoacanthoma, squamous cell carcinoma, basal cell carcinoma.
  • the compounds of the present invention are used as active agents in a topical medicament useful for the prevention, alleviation and treatment of psoriasis.
  • a further aspect of the invention is the use of said conjugated compounds in the prevention, alleviation and treatment of pathologies in which TrkA plays a crucial role in the pathophysiological mechanism, which leads to the development of the pathologies.
  • the conjugated K-252a polymer compounds of formulae (I), (II), and/or (III) are used as active agent in a medicament for the prevention, alleviation and treatment of NGF-related pain and hyperalgesia.
  • a further aspect of the present invention is the use of a compound of formulae (I), (II), and/or (III) optionally as defined above for the manufacture of a medicament for the prevention, alleviation or/and treatment of pathologies as defined above.
  • the compounds of formulae (I), (II), and/or (III) may be used either alone or in combination with one or several further active agents.
  • the polymer conjugate compounds of the invention may be used in combination with at least one further agent capable of inhibiting an early mediator of the inflammatory cytokine cascade, e.g. an antagonist or inhibitor of a cytokine selected from the group consisting of TNF, IL-1 ⁇ , IL-1 ⁇ , IL-R a , IL-8, MIP-1 ⁇ , MIF-1 ⁇ , MIP-2, MIF and IL-6.
  • agents which can be used in combination with the polymer compounds of the invention are e.g. antagonists and/or inhibitors of RAGE, antagonists and/or inhibitors of HMGB1, antagonists and/or inhibitors of the interaction of a Toll-like receptor (TCR) with HMGB1, the functional N-terminal lectin-like domain (D1) of thrombomodulin and/or a synthetic double-stranded nucleic acid or nucleic acid analogue molecule with a bent shape structure as described in the international patent application WO 2006/002971 .
  • TCR Toll-like receptor
  • the compound of formulae (I), (II), and/or (III) or a pharmaceutically acceptable salts thereof can be administered as they are, or in the form of various pharmaceutical compositions according to the pharmacological activity and the purpose of administration.
  • a pharmaceutical composition comprising an effective amount of at least one compound of formulae (I), (II), and/or (III) optionally together with pharmaceutically acceptable carriers, adjuvants, diluents or/and additives.
  • Pharmaceutical carriers, adjuvants, diluents or/and additives are known to a person skilled in the art and may therefore be applied in the formulation of the pharmaceutical composition comprising a compound of the present invention.
  • the pharmaceutical composition of the present invention may be administered in a convenient manner known by a person skilled in the art, e.g. by a physician.
  • the pharmaceutical composition of the invention may be administered by injection or infusion, in particular by intravenous, intramuscular, transmucosal, subcutaneous or intraperitoneal injection or infusion and/or by oral, topical, dermal, nasal, inhalation, aerosol and/or rectal application, etc.
  • the administration may be local or systemic.
  • the administration of the compound and the pharmaceutical composition of the invention may be made by parenteral administration, particularly in the form of liquid solutions or suspensions; or oral administration, particularly in the form of tablets or capsules, or intranasally, particularly in the form of powders, nasal drops, or aerosols; or dermally, via, for example, ointments, cremes, oils, liposomes or trans-dermal patches.
  • the pharmaceutical composition is administered systemically.
  • the polymer conjugate compounds can be administered by injection or infusion, in particular by intravenous, intramuscular, transmucosal, subcutaneous or intraperitoneal injection or infusion and/or by oral administration.
  • the pharmaceutical composition of the present invention are administered by topical application, in particular by dermal application.
  • the administration of the compounds of the present invention may be made in the form of liposomes.
  • the pharmaceutical composition are administered reversibly immobilized on the surface of a medical device, in particular by binding, coating and/or embedding the compound and composition of the invention an a medical device, such as but not limited to, stents, catheters, surgical instruments, cannulae, cardiac valves, or vascular prostheses.
  • an a medical device such as but not limited to, stents, catheters, surgical instruments, cannulae, cardiac valves, or vascular prostheses.
  • the coated medical devices act as drug delivery devices eluting the medicament, whereby the drug delivery kinetics can be controlled, providing an immediate release or a controlled, delayed or sustained drug delivery, for example.
  • Coating technologies of medical devices are well known to the person skilled in the art.
  • the pharmaceutical composition of the present invention may be used for diagnostic or for therapeutic applications.
  • the compound of formula (I), (II), and/or (III) may be present in a labelled form, e.g. in a form containing an isotope, e.g. a radioactive isotope or an isotope which may be detected by nuclear magnetic resonance.
  • a preferred therapeutic application is, in the case of a topical application, the prevention, alleviation and treatment of psoriasis, while in the case of a systemic application, the prevention, alleviation and treatment of connective tissue regeneration in restenosis.
  • the compounds of this invention can be employed as the sole active agent in a pharmaceutical composition. Alternatively, they can be used in combination with other active ingredients, e.g. other active pharmaceutical ingredients in the treatment of the above defined pathologies.
  • the concentrations of the compounds of this invention in the pharmaceutic composition can vary. The concentration will depend upon factors such as the total dosage of the drug to be administered, the chemical characteristics (e.g., hydrophobicity) of the compounds employed, the route of administration, the age, body weight and symptoms of a patient.
  • the compounds of this invention typically are provided in an aqueous physiological buffer solution containing about 0.1 to 10% w/v compound for parenteral administration. Typical dose ranges are from about 1 ⁇ g to about 1 g/kg of body weight per day; a preferred dose range is from about 0.01 mg/kg to 100 mg/kg of body weight per day, and preferably about 0.1 to 20 mg/kg once to four times per day.
  • a preferred dosage of the drug to be administered is likely to depend on variables such as the type and extent of the progression of the disease or disorder, the overall health status of the particular patient, the relative biological efficacy of the selected compound and the formulation of the compound excipient, and its route of administration.
  • Preferred K-252a derivatives include synthetic and/or chemically modified compounds, e.g. compounds having substituents on the ring system, e.g. C 1 -C 4 alkyl groups, compounds wherein the methyl ester group has been replaced by another ester group, an amide group or by H or a cation and/or compounds, wherein the N-atom in the cyclic amide group is substituted with a C 1 -C 4 alkyl group.
  • K-252a-PEG K-252a-PEG(2K)" or “CT327” corresponds to a compound according to the present invention wherein K-252a is conjugated to the -OH group of the tetrahydrofuran moiety with a linear 2kDa PEG chain by a carbamate bond.
  • a 1 mg/mL solution of K-252a in dichloromethane was prepared dissolving 1.5 mg of K-252a (corresponding to 3.208 ⁇ mol) in 1.5 mL of CH 2 Cl 2 by gentle stirring.
  • the solution was added into a glass flask containing 65.05 mg (32.525 ⁇ mol) of methoxy-PEG-isocyanate 2K (m-PEG-isocyanate with an average molecular weight of 2000 Da) and 100 ⁇ L of a 32.684 mg/mL triethylamine solution in CH 2 Cl 2 as basic catalyst. Both the polymer and the catalyst were used in a 10-fold molar ratio compared to K-252a.
  • the present study has been conducted with the aim of measuring and evaluating the absorption kinetic after dermal administration of K-252a-PEG in mice in comparison to the absorption kinetic of the non conjugated, i.e. non PEGylated, K-252a molecule.
  • the experiment was performed using a dose of active agent in both preparation of 3mg/kg.
  • three subsequent experiments have been performed in vivo using each time 6 Balb/C male mice purchased from Charles River (Calco, Italy). The mice were subdivided in the following experimental groups (two animals per group):
  • K-252a and K-252a-PEG(2K) formulations were respectively prepared by dilution of the stock solution (K252a stock solution from Calbiochem batch number B50496, solution of 100 ⁇ g/214 ⁇ L DMSO; K-252a-PEG(2K) stock solution is a solution of 0,226 mg of K252a/mL DMSO) with olive oil, until a final concentration of K-252a of 0,3 mg/mL olive oil/ DMSO 6% was reached.
  • the solutions were respectively prepared as follows: 60 ⁇ L K-252a 5 mg/mL DMSO + 940 ⁇ L olive oil and 30 ⁇ L K252a-PEG(2K), 5 mg/mL DMSO + 470 ⁇ L olive oil.
  • the oil-based preparations are in form of emulsions which are rendered homogeneous by repeated sonication.
  • 240 ⁇ L of the K-252a solution and 235 ⁇ L of the K-252a-PEG solution were applied (corresponding to a dose of 3 mg/kg based on an average body weight of the mice of 23 - 24 g).
  • the applied emulsion was gently massaged on the back of the mice to favor the absorption.
  • the mice were then sacrificed respectively after 30 or 60 minutes under ether anaesthesia and the blood was collected from the ventral aorta with the insulin syringe (approx. 1 mL/animal).
  • the blood was then transferred to an Eppendorf containing 50 ⁇ L of an aqueous solution of EDTA 5 %.
  • the blood samples were then centrifugated at 2000 g for 5 minutes in a refrigerated (4 °C) centrifuge, purified by solid phase extraction (SPE) and subsequently analyzed through HPLC quantitative analysis (RT-HPLC analysis with XTerra C18 column, eluent water/ACN).
  • the plasma samples of the mice treated with K-252a showed a certain plasma concentration for both contact periods.
  • the results are shown in figure 4 , from which it can be gained that the average plasma concentration of K-252a in the mice of group 1, sacrificed after 30 minutes, was 23,33 ng/mL, while the average plasma concentration of K-252a in the mice of group 2, sacrificed after 60, was 42,11 ⁇ g/ml.
  • This shows the occurrence of a systemic adsorption for dermal administration of K-252a.
  • the plasmatic samples of the mice treated with dermal administration of the pegylated conjugate K-252a-PEG(2K) did not show any plasmatic concentration of the active compound even after 60 minutes of contact period.
  • PK study in mice dermal single dose and repeated administrations of CT327 versus K-252a
  • the purpose of this experiment was to evaluate the kinetic of adsorption of CT327 in comparison with K-252a following dermal administration of the two compounds in mice after a single administration as well as the comparative kinetic of the two test compounds after repeated dermal administrations.
  • Figure 4b shows the results of the single dose administration study.
  • the K-252a plasma concentration curve after the single dermal administration of K-252a is shown, reported as mean values ⁇ error (95% Cl, confidence interval) (4 mice for each time point, analysis in duplicate). Instead, no plasma concentration profile for the CT327 single dermal administration was detected.
  • the analysis of plasma samples of mice that received a single dermal administration of CT327 at equimolar dosage in comparison to the mice treated with K-252 did not reveal levels of the test compound above the limit of detection (70.6 nM) at any time point.
  • Table 2 shows the results of the dermal repeated administration study.
  • Table 2 shows the results of the HPLC analysis of mean plasma levels for the repeated administration of K-252a and CT327.
  • K-252a exhibits a detectable and quantifiable plasma concentration while, for what CT327 concerns, no detectable level of test compound was revealed in the collected blood after repeated administrations.
  • the resulting K-252a plasma level following 3 hours after the last dermal administration is 110.2 nM, which is even slightly higher if compared to concentration found at same dosage and time point for single dermal administration (72.9 nM ⁇ 32.5, as value ⁇ 95% Cl).
  • the results of the present studies confirm the efficacy of polymer conjugation of K-252a in avoiding K-252a systemic absorption either after a single dermal administration at a higher dose or after a 5-day topical treatment at a lower dosage.
  • a metabolic MTT-assay was performed as test of the cellular vitality.
  • the MTT-assay was performed using a well known and validated protocol, whereby the results are quantified through a spectrophotometric lecture, the number of living cells being directly proportional to the quantity of the formazan product formed as reduction product of MTT ([3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazoliumbromid]) ( Mosmann T., Rapid colorimetric assay for cellular growth and survival: Application to proliferation and cytotoxicity assays. J. Immunol. Methods. 1983, Dec. 16, 65(1-2):55-63 ).
  • the MTT-assay was performed on subconfluent cultures of keratinocytes seeded in 96-well plates for cellular culture (8000 cells/well). After the cells have been exposed to the substance which has to be analyzed, the cells are incubated for 4 hours at 37 °C with MTT (0,05 %) in serum-free keratinocyte growth medium (KGM Clonetics Corp. San Diego, CA, USA). After solubilisation of the cells with detergents, the formation of the dyestuff formazan is detected using a spectrophotometer for multi-well plate at 540 nm. The results are given as optical density unit (OD).
  • OD optical density unit
  • the antiproliferative activity of the conjugation product K-252a-PEG(2K) was tested with the MTT assay, for a contact time of the isolated keratinocytes in the wells with the solution of the compound to be tested, of 48h and 96h respectively and for concentrations of K-252a-PEG(2K) of 5, 10, 50 and 100 nM. All experiments were performed at least three times.
  • Figure 5 shows the result of the MTT-assay with K-252a-PEG(2K).
  • K-252a-PEG exhibits an inhibitory action on the keratinocytes for concentrations ⁇ 10 nM after 48 h of contact period, while the inhibitory effect is shown for any concentrations after a period of contact of 96h.
  • Figure 8 shows a comparison of the data of the inhibitory activity of 100nM K-252a and of K-252a-PEG(2K) respectively for the above described MTT assay with a contact time of 4 hours and a cell counting performed after 96 hours.
  • K-252a compound and its derivatives exploit their activity after intracellular accumulation of the K-252a compound and its derivatives and subsequent slow release of the active molecules even after removal of the culture medium.
  • K-252a is a potent inhibitor of several kinases.
  • the inhibitory activity of K-252a against selected common tyrosine kinases and serine/threonine kinases was evaluated.
  • a similar experiment has been conducted for evaluating the inhibitory activity of CT327.
  • K-252a (Acros lot A020265401) was dissolved in DMSO to make a 1mM stock solution which was then diluted with DMSO to obtain a 20 ⁇ M solution, further diluted with the assay buffer to achieve a concentration of 0.8 ⁇ M. K-252a was tested at a concentration of 200 nM.
  • the preparation of CT327 and the reference compounds was conducted following a similar procedure. CT327 also was tested at a concentration of 200 nM.
  • protein kinase inhibitors well known in the art, such as staurosporine, 5-iodotubericidin, NK inhibitor II and SB202190 (as shown in Table 3) have been used.
  • Table 3 Reference compounds Reference Compounds Concentration (nM) Kinases Staurosporine 0.3-10000 Tyrosine kinases Other serine/threonine kinases 5-Iodotubericidin 10000 ERK1, ERK2 JNK Inhibitor II 300 JNK1, JNK2 SB202190 300 p38 ⁇ , p38 ⁇
  • the results of the tyrosine kinase inhibition and serine/threonine kinases inhibition for K-252a are shown in the Table a and b, respectively, reported in Figure 9a .
  • the inhibitory activity of CT327 against the tested tyrosine kinase and serine/threonine kinases is shown in the Table a and b, respectively, reported in Figure 9b .
  • the readout value of reaction control (with ATP) was set as a 0% inhibition and the readout value of background (without ATP) was set as a 100% inhibition.
  • K-252a showed at a concentration of 200 nM a very strong inhibitory activity of greater than 90% against 16 of the tested kinases (TNK1, JAK2, JAK3, TYK2, FLT3, PDGFR ⁇ , PDGFR ⁇ , RET, TrkA, TrkB, TrkC, CHK1, CHK2, JNK1, JNK2, AurA and MAP2K3) and a strong inhibition between 80% and 90% against further 7 of the tested kinases (MER, JAK1, MET, KIT, BLK, FGR and CaMK2a).
  • CT327 showed, at an equivalent concentration in comparison to K-252a (200 nM), a strong inhibitory activity (> 50%) only against TrkA within the tyrosine kinases tested.
  • a low activity was shown by CT327 against JAK2, JAK3 and FLT3 (between 20% and 30%), while a very low activity was seen against TNK1, EphB4, PDGFR ⁇ , BLK, LCK, TrkB and TrkC (between 10% and 20%). No inhibition at all was observed for the majority of the tested tyrosine kinases.
  • CT327 showed a strong inhibitory activity (> 40%) only against MAP2K3, very low (14%) against JNK3 (highlighted in green) and no inhibitory activity at all against the other serine/threonine kinases tested.
  • Figure 10 reports the comparison of the selectivity of CT327 versus K-252a.
  • the results clearly show a dramatic improvement in the selectivity of kinase inhibition of CT327 versus K-252a.
  • the results demonstrate an increase selectivity in kinase activity of CT327 with respect to TrkA in the group of the tyrosine kinases and with respect to MAP2K3 in the group of the serine/threonine kinases.
  • CT327 and K-252a were tested at the following concentrations: 1000 nM, 300 nM, 100 nM, 30 nM, 10 nM, 3 nM, 1 nM, 0.3 nM, 0.1 nM, 0.03 nM.
  • Staurosporine was tested at the following concentrations: 100 nM, 30 nM, 10 nM, 3 nM, 1 nM, 0.3 nM, 0.1 nM, 0.03 nM, 0.01 nM and 0.003 nM.
  • the assay procedure is the following:
  • IC 50 values of K-252a and CT327 against TrkA were 0.50 nM and 186 nM, respectively.
  • the corresponding IC 50 value of reference compound (Staurosporine) against TrkA was 0.12 nM.
  • mice (Balb/c, 35 males and 35 females) where divided in 14 sub-groups (7 groups composed by 5 males and 7 groups composed by 5 females) to receive the following dose levels of test items:
  • mice administered with the lowest K-252a dose survived and, like males given the same dose, showed very mild/mild sedation which disappeared within 8-10 hours.
  • Higher doses of K-252a were lethal to all female mice.
  • the LD 50 for females was 41.44 mg/kg.
  • the average LD 50 for males and females together was therefore 39.02 mg/kg.
  • LD 50 for K-252a has been found to be 78 mg/kg, whereas no mortality has been observed up to the maximum dose of 790 mg/kg of CT327.
  • Endotoxemia induction at time 0 both groups received a dose of LPS corresponding to 4 mg/kg, i.p..
  • CT327 treatments the "treated" experimental group received a single dose of CT327 corresponding to 105.56 mg/kg, i.p.. This dose was administered 15 minutes before LPS endotoxemia induction (time 0). At the same time the "control" group received an equivalent volume of vehicle solution.
  • Each experimental group was divided into 11 sub-groups with 5 mice/sub-group. Each sub-group was sacrificed at different time points and blood samples collected.
  • Plasma samples were collected in sodium citrate tubes (100 ⁇ l sodium citrate 0.1 M/900 ⁇ l of blood) and centrifuged at 1000 g at 4°C for 10 minutes. Plasma samples were collected and 50 ⁇ l/sample were frozen at -80°C until testing for multiple cytokines profiling. The samples were analyzed in double through the Bio-Plex System (Bio-Rad) by using the 23-plex panel at the Dept. of Genetics, Biology and Biochemistry, Torino University, led by Prof. Silengo.
  • Plasma levels of the following cytokines were determined: IL-1a, IL-1b, IL-2, IL-3, IL-4, IL-5, IL-6, IL-10, IL-12(p40), IL-12(p70), IL-17, G-CSF, GM-CSF, IFN- ⁇ , KC, MIP-1- ⁇ ; RANTES, TNF- ⁇ , IL-9, IL-13, eotaxin, MCP-1, MIP-1- ⁇ .
  • Figure 12 shows the significant reduction of TNF- ⁇ secretion in the plasma levels of mice pre-treated with the CT327 compound according to the invention.
  • Figures 13a-e show instead to the results of the paralllel experiment done with K-252a.
  • a significant reduction not only of TNF- ⁇ , but also of IFN- ⁇ , MCP-1, MIP- ⁇ and RANTES.
  • MeO-PEG 1100 -OH (22.0 g, 20.0 mmol) was added and then BrCH 2 CO 2 Et (16.7 g, 100.0 mmol) was added dropwise within 30 min and the reaction flask was cooled with a water bath.
  • reaction mixture was then acidified to pH 3 using aqueous HCl (1 N, ca 165 mL) and then partitioned with CH 2 Cl 2 (5 ⁇ 100 mL).
  • CH 2 Cl 2 5 ⁇ 100 mL.
  • the collected organic extracts were anhydrified (Na 2 SO 4 ) and the solvent removed under vacuum at 40 °C.
  • m-PEG 1100 -O-CH 2 -COOH (10.0 g, 9.1 mmol) was dissolved in toluene (80mL) under stirring. About 15 mL of solvent were then distilled off in order to dry the mixture by azeotropic distillation.
  • a 1 mg/mL solution of K-252a in DCM was prepared dissolving 1.5 mg of K-252a (corresponding to 3.2 ⁇ mol) in 1.5 mL of CH 2 Cl 2 by gentle stirring.
  • the solution was added into a glass flask containing 38.06 mg (32.5 ⁇ mol) of m-PEG 1100 -O-CH 2 -NCO and 100 ⁇ L of a 32.8 mg/mL triethylamine solution in CH 2 Cl 2 as basic catalyst. Both the polymer and the catalyst were used in a 10-fold molar ratio compared to K-252a.
  • the solution was then evaporated and the solid residue was treated with 300 ⁇ L of DMSO.
  • the mixture was purified by RP-HPLC on a C18 column in order to obtain the desired product (peak corresponding to about 61/39 ACN/H 2 O gradient).
  • the corresponding fractions of four subsequent purification processes were pooled and dried by ACN evaporation and then freeze-dried.
  • a MALDI-TOF analysis confirmed the identification of the product with the K-252a-PEG 1100 conjugate.

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Claims (33)

  1. Conjugué polymère d'un composé indolocarbazole de la formule générale (I) :
    Figure imgb0012
    où Ra et Rb sont indépendamment, l'hydrogène ou un résidu organique choisi parmi le groupe consistant en alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, hydroxy, alcoxy inférieur, carboxy ou alcoxycarbonyle, ou
    Ra et Rb forment ensemble, une structure cyclique de 5-7 membres condensée directement à la structure du noyau indolo[2,3-a]carbazole, contenant 0, 1 ou 2 hétéroatomes et contenant le cas échéant un radical carbonyle, et la structure cyclique étant non substituée ou substituée par au moins un groupe substituant choisi parmi un radical carbonyle ou W1 ou W2, et où si un hétéroatome de la structure cyclique est azote, l'azote est substitué par le résidu R3, et
    où Rc et Rd sont
    (a) indépendamment hydrogène ou un résidu organique choisi parmi le groupe consistant en alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, hydroxy, alcoxy inférieur, carboxy ou alcoxycarbonyle, ou
    l'un de Rc et Rd est choisi parmi hydrogène, alkyle inférieur substitué ou non substitué et hydroxy, alors que l'autre de Rc et Rd est une partie cyclique de 3-7 membres, où la partie cyclique est non substituée ou substituée par au moins un groupe fonctionnel approprié pour la conjugaison d'une partie polymère,
    ou
    (b) Rc et Rd forment ensemble, une partie cyclique de 3-7 membres, où la partie cyclique est non substituée ou substituée par au moins un groupe fonctionnel approprié pour la conjugaison d'une partie polymère, et
    où R1 et R2 sont des résidus identiques ou différents et sont chacun indépendamment choisis parmi le groupe consistant en :
    (a) hydrogène, halogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, hydroxy, alcoxy inférieur, carboxy, alcoxycarbonyle inférieur, acyle, nitro, carbamoyle, alkylaminocarbonyle inférieur, -NR5R6, où R5 et R6 sont chacun indépendamment choisis parmi hydrogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué, aralkyle substitué ou non substitué, alkylaminocarbonyle inférieur substitué ou non substitué, arylaminocarbonyle inférieur substitué ou non substitué, alcoxycarbonyle, carbamoyle, acyle ou R5 et R6 sont combinés avec un atome d'azote d'un radical hétérocyclique,
    (b) -CO(CH2)jR4, où j est 1 à 6, et R4 est choisi parmi le groupe consistant en
    (i) hydrogène, halogène, -N3,
    (ii) -NR5R6, où R5 et R6 sont tels que définis ci-dessus,
    (iii) -SR7, où R7 est choisi parmi le groupe consistant en hydrogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué, aralkyle substitué ou non substitué, -(CH2)aCO2R10 (où a est 1 ou 2, et où R10 est choisi parmi le groupe consistant en hydrogène et alkyle inférieur substitué ou non substitué) et -(CH2)aCO2NR5R6,
    (iv) -OR8, -OCOR8, où R8 est choisi parmi hydrogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué,
    (c) -CH(OH) (CH2)jR4, où j et R4 sont tels que définis ci-dessus ;
    (d) -(CH2)dCHR11CO2R12 ou -(CH2)dCHR11CONR5R6, où d est 0 à 5, R11 est hydrogène, -CONR5R6, ou -CO2R13, où R13 est hydrogène ou un alkyle inférieur substitué ou non substitué, et R12 est hydrogène ou un alkyle inférieur substitué ou non substitué ;
    (e) -(CH2)kR14 où k est 2 à 6 et R14 est halogène, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué, -COOR15, -OR15 (où R15 est hydrogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué ou acyle), -SR7 (où R7 est tel que défini ci-dessus), -CONR5R6, -NR5R6 (où R5 et R6 sont tels que définis ci-dessus) ou -N3 ;
    (f) -CH=CH(CH2)mR16, où m est 0 à 4, et R16 est hydrogène, alkyle inférieur substitué ou non substitué, alcényle inférieur substitué ou non substitué, alcynyle inférieur substitué ou non substitué, aryle substitué ou non substitué, hétéroaryle substitué ou non substitué, -COOR15, -OR15 (où R15 est tel que défini ci-dessus), -CONR5R6 ou -NR5R6 (où R5 et R6 sont tels que définis ci-dessus) ;
    (g) -CH=C (CO2R12)2, où R12 est tel que défini ci-dessus;
    (h) -C≡C(CH2)nR16, où n est 0 à 4 et R16 est tel que défini ci-dessus ;
    (i) -CH2OR22, où R22 est tri(alkyl inférieur) silyle, dans lequel les trois radicaux alkyle inférieurs sont identiques ou différents et où R22 a la même signification que R8 ;
    (j) -CH(SR23)2 et -CH2-SR7, où R23 est alkyle inférieur, alcényle inférieur ou alcynyle inférieur et où R7 est tel que défini ci-dessus, et
    R3 est hydrogène, halogène, acyle, carbamoyle, alkyle inférieur substitué ou non substitué, alcényle substitué ou non substitué, alcynyle inférieur substitué ou non substitué, ou amino, et
    W1 et W2 sont indépendamment hydrogène, hydroxy ou W1 et W2 représentent ensemble, oxygène ;
    ou un sel pharmaceutiquement acceptable de celui-ci,
    caractérisé en ce que le composé de formule (I) a au moins un groupe fonctionnel auquel la partie polymère est conjuguée,
    où le au moins un groupe fonctionnel auquel la partie polymère est conjuguée, est choisi parmi hydroxy, alkyle inférieur substitué ou non substitué, alcoxy inférieur, carboxy, alcoxycarbonyle, amino, alkylamino inférieur, alkylaminocarbonyle inférieur et/ou un radical oxime, et
    où le polymère est un polymère choisi parmi polyalkylèneglycol, poly(oxyde d'alkylène), poly(acide acrylique), polyacrylate, polyacrylamide ou ses dérivés N-alkyle, poly(acide méthacrylique), polyméthacrylate, poly(acide éthylacrylique), polyéthylacrylate, polyvinylpyrrolidone, poly(alcool vinylique), poly(acide glycolique), poly(acide lactique), poly(acide lactique-co-glycolique), dextrane ou chitosane, et
    où l'expression « alkyle inférieur » quand utilisée seule ou en combinaison avec d'autres radicaux se réfère à un radical alkyle inférieur à chaine linéaire ou ramifié contenant 1-6 atomes de carbone,
    l'expression « alcényle inférieur » se réfère à un radical alcényle en C2-C6, qui peut être une chaine linéaire ou ramifié et qui peut être de forme Z ou E,
    l'expression « alcynyle inférieur » se réfère à un radical alcynyle en C2-C6, qui peut être une chaine linéaire ou ramifié, et
    l'expression « alcoxy inférieur » se réfère à un radical alcoxy contenant 1 à 6 atomes de carbone.
  2. Polymère conjugué selon la revendication 1, où le composé indolocarbazole de formule (I) est un composé de formule générale (II) :
    Figure imgb0013
  3. Conjugué polymère selon la revendication 1 ou 2, représenté par la formule (III) suivante :
    Figure imgb0014
    où R1, R2, R3 et W1 et W2 sont tels que définis à la revendication 1, et où
    X représente -L1-X' et Y représente -L2-Y', où au moins l'un de X' et Y' est un polymère, linéaire ou ramifié, qui est lié par L1 et/ou L2 au cycle tétrahydrofuranne du composé de formule (III) ; L1 et/ou L2 sont une liaison chimique covalente ou un groupe de liaison ;
    lorsque Y' est un polymère et X' n'est pas un polymère, L1 est une liaison chimique covalente et X' est choisi parmi le groupe consistant en :
    (a) hydrogène, hydroxyalkyle inférieur, acyle, carboxy, alcoxycarbonyle inférieur,
    (b) -CONR17aR17b, où R17a et R17b sont chacun indépendamment choisis parmi
    (i) hydrogène, alkyle inférieur, alcényle inférieur, alcynyle inférieur,
    (ii) -CH2R18, où R18 est hydroxy, ou
    (iii) -NR19R20, où R19 et R20 sont chacun indépendamment choisis parmi hydrogène, alkyle inférieur, alcényle inférieur, alcynyle inférieur, ou R19 ou R20 sont indépendamment, le résidu d'un acide α-aminé, dans lequel le radical hydroxy du radical carboxyle est exclu, ou R19 ou R20 sont combinés avec un atome d'azote pour former un radical hétérocyclique, et
    (c) -CH=N-R21, où R21 est hydroxy, alcoxy inférieur, amino, guanidino ou imidazolylamino ;
    lorsque X' est polymère, et Y' n'est pas polymère, L2 est une liaison chimique covalente et Y' est choisi parmi hydroxy, alcoxy inférieur, aralkyloxy ou acyloxy ;
    et où le polymère est un polymère choisi parmi polyalkylèneglycol, poly(oxyde d'alkylène), poly(acide acrylique), polyacrylate, polyacrylamide ou ses dérivés N-alkyle, poly(acide méthacrylique), polyméthacrylate, poly(acide éthylacrylique), polyéthylacrylate, polyvinylpyrrolidone, poly(alcool vinylique), poly(acide glycolique), poly(acide lactique), poly(acide lactique-co-glycolique), dextrane ou chitosane ;
    ou un sel pharmaceutiquement acceptable de celui-ci.
  4. Conjugué polymère selon l'une quelconque des revendications 1 à 3, où le polymère est un polymère choisi parmi le polyéthylèneglycol (PEG) ou le méthoxy-polyéthylèneglycol (m-PEG).
  5. Conjugué polymère selon l'une quelconque des revendications 1 à 4, où le polymère est un polymère ayant un poids moléculaire allant de 100 à 100 000 Da.
  6. Conjugué polymère selon la revendication 4 ou 5, où le polymère est le PEG ou le mPEG ayant un poids moléculaire moyen de 2000 Da ou de 5000 Da.
  7. Conjugué polymère selon la revendication 4 ou 5, où le polymère est le PEG ou le mPEG ayant un poids moléculaire moyen de 550 Da ou de 1100 Da.
  8. Conjugué polymère selon l'une quelconque des revendications 2 à 7, où la liaison chimique covalente entre le polymère et le composé de formule (I) ou (II), ou où L1 et/ou L2 dans la formule (III) est choisi parmi une liaison carbamate, éther, ester, carbone, amide et/ou amine.
  9. Conjugué polymère selon l'une quelconque des revendications 2 à 8, où R1, R2, R3, W1 et W2 sont hydrogène, Y' est un polymère et X' est méthoxycarbonyle ou carboxyle.
  10. Conjugué polymère selon la revendication 9, où L2 est une liaison éther ou carbamate.
  11. Conjugué polymère selon l'une quelconque des revendications 2 à 8, où R1, R2, R3, W1 et W2 sont hydrogène, X' est un polymère et Y' est hydroxy.
  12. Conjugué polymère selon la revendication 11, où L1 est une liaison amine ou amide.
  13. Conjugué polymère selon l'une quelconque des revendications précédentes, pour utilisation comme agent actif dans un médicament.
  14. Conjugué polymère selon la revendication 13, pour utilisation comme agent actif dans un médicament topique.
  15. Conjugué polymère selon la revendication 13, pour utilisation comme agent actif dans un médicament pour traitement systémique.
  16. Composition pharmaceutique comprenant au moins un conjugué polymère selon l'une quelconque des revendications précédentes, le cas échéant avec des supports, adjuvants, diluants et/ou additifs pharmaceutiquement acceptables.
  17. Composition pharmaceutique selon la revendication 16, pour une application diagnostique.
  18. Composition pharmaceutique selon la revendication 16, pour une application thérapeutique.
  19. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de pathologies associées au HMGB1.
  20. Utilisation selon la revendication 19, où les pathologies associées au HMGB1 sont la sténose, la resténose, l'athérosclérose, la polyarthrite rhumatoïde, les maladies auto-immunes, les tumeurs, les maladies infectieuses, la septicémie, une lésion inflammatoire sévère des poumons, le lupus érythémateux, des maladies neurodégénératives, des maladies du système nerveux central et périphérique et la sclérose en plaques.
  21. Utilisation selon la revendication 20, où la pathologie associée au HMGB1 est la sténose ou la resténose.
  22. Utilisation selon les revendications 19 à 21, où le conjugué polymère est immobilisé de manière réversible à la surface d'un dispositif médical.
  23. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de désordres neurologiques, de neuropathies et de désordres neurodégénératifs des systèmes nerveux central et périphérique.
  24. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de pathologies dermiques.
  25. Utilisation selon la revendication 24, où les pathologies dermiques sont caractérisées par l'hyper-prolifération des kératinocytes.
  26. Utilisation selon la revendication 24 ou 25, où les pathologies dermiques sont le psoriasis, la dermatite atopique, l'eczéma chronique, l'acné, le pityriasis rubra pilaire, des chéloïdes, des escarres hypertrophiques et des tumeurs de la peau.
  27. Utilisation selon la revendication 26, où la pathologie dermique est le psoriasis.
  28. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de la douleur en rapport au NGF et à l'hyperalgésie.
  29. Utilisation selon l'une quelconque des revendications 24 à 28, où le médicament est préparé pour une administration topique.
  30. Utilisation selon la revendication 29, où l'administration est effectuée sous forme de liposomes.
  31. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de maladies inflammatoires, de maladies auto-immunes, du syndrome de réponse inflammatoire systémique, d'une lésion de reperfusion après transplantation d'organe, des affections cardiovasculaires, des maladies obstétriques et gynécologiques, des maladies infectieuses, des maladies allergiques et atopiques, des pathologies tumorales solides et liquides, des maladies de rejet de transplantation, des maladies congénitales, des maladies dermatologiques, des maladies neurologiques, la cachexie, des maladies rénales, des états d'intoxication iatrogéniques, des maladies métaboliques et idiopathiques et des maladies ophtalmologiques.
  32. Utilisation d'un conjugué polymère selon l'une quelconque des revendications 1 à 12, pour la préparation d'un médicament pour la prévention, le soulagement et/ou le traitement de la maladie de Behçet, du syndrome de Sjögren, de la vasculite, de l'uvéite, de rétinopathies.
  33. Utilisation selon les revendications 28, 31 ou 30, où le médicament est destiné à l'administration systémique.
EP06777076.8A 2005-08-25 2006-08-25 Conjugués polymères de k-252a et leurs derivés Active EP1919979B2 (fr)

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PL06777076T PL1919979T5 (pl) 2005-08-25 2006-08-25 Polimerowe koniugaty K-252a i ich pochodne
SI200631734A SI1919979T2 (sl) 2005-08-25 2006-08-25 Polimerni konjugati K-252A in njihovi derivati
RS20140104A RS53195B2 (sr) 2005-08-25 2006-08-25 Polimerni konjugati k-252a i njihovi derivati
SI200631734T SI1919979T1 (sl) 2005-08-25 2006-08-25 Polimerni konjugati K-252A in njihovi derivati
HRP20140218TT HRP20140218T4 (hr) 2005-08-25 2014-03-10 Polimerni konjugati k-252a i njihovi derivati
CY20141100227T CY1114995T1 (el) 2005-08-25 2014-03-24 Συζευγματα με πολυμερες του κ-252α και παραγωγων αυτοy

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CA2620032A1 (fr) 2007-03-01
DK1919979T3 (da) 2014-04-14
CA2620032C (fr) 2014-02-04
SI1919979T2 (sl) 2017-07-31
NZ566160A (en) 2010-12-24
EP1919979B1 (fr) 2014-01-15
JP2009506000A (ja) 2009-02-12
AU2006284096A1 (en) 2007-03-01
RS53195B (en) 2014-06-30
EP1919979A1 (fr) 2008-05-14
US8673347B2 (en) 2014-03-18
HRP20140218T1 (en) 2014-04-11
ES2444003T3 (es) 2014-02-21
PL1919979T3 (pl) 2014-06-30
DK1919979T4 (en) 2017-07-17
EA200800661A1 (ru) 2008-06-30
RS53195B2 (sr) 2018-08-31
AU2006284096B2 (en) 2012-03-29
PL1919979T5 (pl) 2017-10-31
MX2008002524A (es) 2008-03-14
JP5366548B2 (ja) 2013-12-11
IL189187A0 (en) 2008-06-05
ES2444003T5 (es) 2017-07-05
IL189187A (en) 2013-04-30
HRP20140218T4 (hr) 2017-06-16
EA017318B1 (ru) 2012-11-30
KR20080039511A (ko) 2008-05-07
HK1123563A1 (en) 2009-06-19
KR101379693B1 (ko) 2014-04-10
BRPI0615277A2 (pt) 2009-08-04
CY1114995T1 (el) 2016-12-14
PT1919979E (pt) 2014-03-07
WO2007022999A1 (fr) 2007-03-01
US20080193517A1 (en) 2008-08-14

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